Machine for mixing and molding plastic materials



4 Sheets-Sheet 1 H. CORBETT m m m m w m m u mi m H u m F m m u Aug. 8,'1950 Filed Feb. 10, 1948 All8 8, 1950 H. CORBETT 2,518,124

MACHINE FOR MIXING HOLDING PLASTIC MATERIALS Filed Feb. 10, 1948 4 Sheets-Sheet 2 INVEN TOR. A51/Pam (bfesr.

Arm/@vin Aug. 8, 1950 H. coRBl-:TT 2,518,124

MACHINE FOR MIXING AND HOLDING PLASTIC MATERIALS 'Filed Feb. 1o, 1948 4 sheets-sheet s Tura-4a; l TnzA,

Aug- 3, 1950 H. coRBETT 2,518,124

MACHINE Fox umNG AND Momma PLAs'rrc uATERIALs Filed Feb. 1o, i948 4 sheets-sheet 4 Thal. E.

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A TMP/vir Patented ug. 8, 1950 .UNITED sTATEs PxrlazN'rl OFFICE MACHINE FOR MIXING AND MOLDING PLASTIC MATERIALS Harold Corbett, East Orange, N. J.

Application February 10, 1948, Serial No. 7,346

l2 Claims. l

This invention relates t'o a machine for molding plastic materials. Although not conned thereto, the invention is particularly concerned with a machine for molding concrete, bituminous molding compositions and the like.

In the manufacture of molded products from plastic compositions, the various raw materials are generally mixed batch-wise in some suitable mixer and then transferred, often by hand or in a portable conveyor, to a separate machine where the molding operation is carried out. This procedure is wasteful of both time and manpower. Further, machines commonly used for molding plastic compositions, such as concrete, into building blocks and the like involve extensive manual labor in their operation and such concrete block machines are generally not suitable for making other products such as tiles or for handling other plastic molding compositions, such as those containing bituminous materials or those containing liquid or solid resinous plastics.

It is the object of this invention to provide a single integrated machine in' which plastic compositions may be both mixed and molded, which is simple to operate, which eliminates unnecessary handling of the molding material and which is adapted to compound a variety of plastic compositions and to mold them into a variety of forms.

According to the invention there is provided a machine having a mixing chamber in which the various components of the plastic composition to be processed are continuously mixed and compounded and from which the compounded mixture is intermittently transferred directly into a molding compartment where the molding operation is performed while additional quantities of the plastic molding composition are Ibeing simultaneously mixed.

A feature of the invention resides in the relative positions and arrangement of the raw material charging port and of the molding compartment in relation to the mixing chamber with which they communicate, whereby the individual components of the molding composition are mixed while being conveyed through the mixing chamber to the molding compartment.

Another feature of the invention resides in the arrangement and construction of the molding compartment and in the provision of means whereby the molding compartment may be isolated from the mixing chamber, the molding operation carried out and the product removed from the molding compartment without interrupting 'the mixing operation.

Other features and advantages of the invention will be apparent from the more detailed description which follows and from the accompanying drawings in which,

Fig. l is a plan view of a machine embodying the invention;

Fig. 2 is a view partly in section and partly in elevation taken approximately on the line 2-2 of Fig. l;

Fig. 2a is a more detailed view, partly in section and partly in elevation, of the molding end of the machine;

Fig. 3 is a view partly in section and partly in elevation of the molding unit, showing the manner in which concrete products may be handled;

Fig. 3a is a diagrammatic view illustrating the handling of the pallet-supporting devices when the molding unit is returned to the molding compartment;

Fig. 4 is a view in perspective of one type of product which may be molded in the machine of the invention;

Fig. 5 is a view in elevation showing the handling of thin products such as tiles;

Fig. 6 is an end elevation of the molding end of the machine of the invention;

Fig. 'I is a view in section of the molding compartment illustrating the use of liners;

Figs. 8, 8a, 8b and 8c are diagrammatic views showing the molding compartment gates at various stages during the operation of the machine; and

Fig. 9 is a diagrammatic view of the electrical circuits involved in the embodiment of the invention illustrated.

Referring to the drawings, the numeral III designates generally the body of the machine comprising end walls II and I2, and side walls I3 and I4 secured as by welding to the end walls. The upper ends of the walls Il, I2, I3 and I4 are formed wtih inwardly extending flanges I5, I6, I1 and I8, respectively. A trough-shaped mixing chamber I9 is formed by a curved wall 2|) which is provided at its ends with outwardly extending ilanges 2| and 22, bolted or otherwise secured to the interior faces of the end walls II and I2, respectively, the upper edges of wall 20 being formed with flanges` 23 and 24 secured to flanges II and I8, respectively. The body III of the machine is provided with a top 25 which rests upon and may be secured, as by bolting, to

flanges I5, I6, I1 and I8. For convenience in gaining access to the interior of the machine, the top 25 may be formed of two or more abutting plates.

A charging port 26 and a molding port 2l provide access to the interior cf chamber ls cajacent opposite ends thereof. A semi-circular wall 28 having upwardly extending end plates 29 and 36 forms a centrally-positioned cylindrical section ln chamber I9. 'I'he lower edges of Wa1128 may be beveled to facilitate the junction with wall 26. End plates 29 and 36 extend across chamber I9 and upwardly to top 25 and may be appropriately flanged and bolted to top 25 and side walls I3 and I4. A hopper 3| having a flange 32 is positioned over charging port 26 and secured, as by bolting. to top 25. An outlet pipe 33 in wall II adjacent the bottom of chamber I9 is provided to permit the removal of liquid material from the chamber as, for example, when the machine is Abeingcleaned out. Outlet pipe 33 is closed by a valve 34.

A mixing and pressure conveying mechanism is provided in chamber I9 and comprises a shaft 36 carrying a helical screw 31. Impeller blades 38, having a pitch opposite to that of helical screw 31, are mounted on shaft 36 adjacent end wall II and adjustable-pitch mixing blades 39 are mounted on shaft 36 intermediate the helical screw 31. Each adjustable-pitch mixing blade has a stem 46 extending through shaft 36 and is held in position by a nut 4|. Four mixing blades are shown in the embodiment illustrated in Fig. 2 but it will be obvious that additional mixing blades may be provided. Shaft 36 is provided with a bore 42 extending about half-way along the axis thereof. Nozzles 43 are mounted in shaft 36 and provide means whereby liquids forced into the bore 42 may be discharged into chamber I9. The ends of shaft,36 pass through appropriate openings in walls II and I2 and are supported in bearings 44 and 45, respectively, a liquid seal being provided by suitable packing glands (not shown). Shaft 36 is driven by a reversible motor 41 through reducing gears in gear box 48. A coupling 49 is provided in order that the driving mechanism may be conveniently separated from shaft 36. The end of shaft 36 which passes through wall and is supported in bearing 44 is provided with a conventional swivel valve 56 having a flow regulator plate, in order that liquids may be introduced into bore 42 either continuously or intermittently while the shaft 36 is being driven.

The molding operation is carried out in a molding compartment which is formed by side walls 52 and 53 and end walls 54 and 55. welded or otherwise secured to the side walls. The lower ends of walls 52, 53 and 54 are provided with an outwardly extending flange 56 which is bolted to top 25 along the periphery of molding port 21. Means for intermittently closing molding port 21 with a bottom or bedplate for the molding compartment and thereby isolate the molding compartment 5| `from chamber I9 is provided by a lower gate 51 and a superposed upper gate 56. These gates, which have a width equal to the inside width of molding compartment 5I, are adapted to slide along top 25 and enter molding compartment 5| through an aperture 59 provided by cutting off a portion of the lower end of the wall 55. Lower gate 51 1s provided with a rectangular slot 66 which is adapted to receive a catch 6| extending downwardly from the end of upper gate 58. The catch 6| is free to travel in slot 60 and to move lower gate 51 in response to the movements of upper gate 58 which is driven directly. In the embodiment illustrated, a reciprocating movement is imparted to upper gate 58 by means of a mechanism comprising a connecting rod 62 secured at one end to upper gate 66 by a clevis mounting 63 and secured at its other end to a wheel 65 by a bearing 66 which is eccentrically positioned on wheel 65. Wheel 66 is driven by a motor 61 through a gear box 66. It will be obvious that other means for moving upper gate 56 may be provided as, for example, a hydraulic or a pneumatic mechanism In order to provide for the use of pallets when compositions such as concrete or the like are being yhandled as hereinafter described, the upper'gate 56 may have a detachably secured forward portion 56a.

The material to be molded, which is transferred from chamber I9 into molding compartment 5I, is compressed by a molding unit 69 comprising a hydraulic ram 16 having a plate 1| secured to its lower end. Plate 1| may carry a hollow mold core 12 bolted to the underside thereof. Air-operated ejector umts 15 having pistons 16 are mounted at each corner of plate 1|. Pistons 16 extend through holes in plate 1| and are secured to a frame 11 which isheld by the pistons against the lower face of plate 1I. A compression plate 18 which conforms in shape and size to the cross-sectional area of the space between the walls of molding compartment 5I and the mold core 12, may be secured to frame 11.

Hydraulic ram 10 is actuated by a self-contained hydraulic pump unit 66, the ram 16 being attached to the piston 8| of the hydraulic pump. The hydraulic pump unit illustrated in the drawings is not per se a part of the present inven-` tion. The pump unit 66 is mounted on a supporting tray 82 having a rim 63, the ram 16 passing through a suitable opening in the tray. The ram 16 is provided with an adapter bushing 85 and a coil spring 81, which reverses the movement of the ram 16 when the pressure on piston 6| is released, is mounted on ram 16 between piston 8| and adapter bushing 85.

The molding unit 69 is lifted from the molding compartment 5| by means of a pneumatic lifting unit comprising an air cylinder 96 containing a piston 9| to which is attached a hollow piston rod 92.v Cylinder 96 is secured to end Wall II by brackets 93 and 94.y A handle 96 having a hollow grip 91 is mounted on the upper end of piston rod 92. Two supporting strips |66 and |6I diverge outwardly from the sides of handle 96 and are secured to rim 83 on opposite sides of supporting tray 82 whereby the molding unit 69 is securely attached to and responsive to the movements of piston rod 92. A brace I 62 extends between strips |66 and I6|. Molding unit 69 may be securely held in position with respect to molding compartment 5| during the molding operation through two locking knobs |65 which are attached to strips |66 and |6| and cooperate with two locking hooks |66, mounted on sides 52 and 53 in pivots |61. Movement of hooks I 66 with respect to knobs I 65 is controlled by arms |08 which pass through guide bearings |69, mounted on top 25. Arms |68 are provided with hooked ends II6. Ears ||2 are positioned on upper gate 58 in such manner that they push the hooked ends |I6 against rollers ||3 when upper gate 58 is retracted thereby disengaging knobs |65 and hooks |66 and guiding the ends I I6 out of the path of upper gate 56. Springs |I4 are provided on arms |68 adjacent guide bearings |69.

The air supply for the pneumatic lifting system above described is provided by an air pump I I5 from which air .passes into cylinder 96 through a hose |I6. A passageway |I1 through piston and anair line |l3 leads from piston rod 32 to the interior of grip 81. Trigger |23 controls a valve (not shown) which releases the air in grip l 91 to the atmosphere thereby nullifying the lifting power of the air'on piston 3|. Another air line |2| leads from the top of .piston rod 33 through a valve (not shown) controlled by button |22 'to the ejector units 15. The elector units are actuated,'when desired. by depressing button |22.

A conveyor |25 may be provided to receive the molded product as it is ejected from the molding unit 88 and to convey it away. Conveyor |25 passes over a spindle |28 supported in brackets |21 and |28 which are secured to side wall |4 and top 25, respectively.

In order to facilitate the operation of the machine. andmin particular the operation of the gates 51 and 58 and the hydraulic ram unit 80, there are provided a number of switches and electrical contacts? A contact unit |33 is mounted on wall 54 and a contact unit |3| is 1b the pneumatic lifting mechanism.

mounted on brace |02 in such a manner that the hydraulic pump unit 80 through a pressure regulator switch |32. Limit switches -|33 and |34 are mounted on top 25 adjacent one side of upper gate 58, and a cam |35 is mounted on energiaed to pull upper gate I3 out of compartment 5|. When gate 58 reaches this position, the contact arm of limit switch |33 slips oit the end of cam |35 and deenergizes motor 01. Fig. 8c shows both lower gate 51 and upper gate 53 in fully retracted position. y

It will be obvious that other electrical controls may be provided to operate automatically other portions of the machine such as. for example, It will also be apparent that the various automatic controls may be omitted altogether and the motor 51 and hydraulic .pump 80 operated by manual switches.

The operation of the machine proceeds as follows, the lower gate 51 and the upper gate |58` being at rest in the position shown in Fig. 8b. The machine is started by placing master switch |40 in forward position. This energizes motor 41 and air compressor li5. Charging of the various solid components of the molding mixture through hopper 3| into the mixing chamber i8 is then begun. Continuous charging of the solid materials may be effected in any suitable manner. as for example, by one or Vmore bucket conveyors (not shown) the movement of which may be synchronized with the operation of the machine. The materials as `they enter mixing chamber i0 are agitated and mixed by mixing blades 38 and helical screw 31. Helical screw 31 also gradually conveys the mixture through the chamber toward molding port 21. As the materials reach the forward end of mixing upper gate 58 in such manner that the armsof the limit switches |33 and |34 are actuated in response to the movements of the upper gate 58 as hereinafter described. Limit switch |34 is electrically connected to a light bulb |35 and limit switch |33 is electrically connected to motor 61 and to contact unit |30. Pressure' regulator switch |32 is electrically connected to limit switch |33 and motor 51. Contact unit |30 lis electrically connected through a time limit device |31 to motor 81. 'Iime limit device |31 which has a setting dial |33 for adjusting its operation, is mounted in a panelboard |33, which is secured to top and bracket 35. Also mounted in panelboard |39 is a master switch |40. having a lever |4|, which controls the flow ofelectrical energy for the operation of all electrically actu-I ated units in the machine. By suitable adjustment of masterswitch |40. reversible motor 41 may he operated in a forward or in a reverse direction.

Referring particularly to Figs. 8, 8a, 8b, and 8c, there will be seen the relative position of the limit switches |33 and |34 with respect to the gates 51 and 58 at four different stages during the operation of the machine of the invention. Fig. 8 shows both gates extending into the molding vcompartment 5| thereby closing molding port 21, the catch 5| having pulled lower gate 51 into molding compartment 5| as upper gate 53 was pushed forward from the position shown in Fig. 8a in which both .gates are shown Just at the point of entering compartment 5|. It will be observed that in Fig. 8 the limit switch |33 has just overridden the end'of cam |35 thereby stopping motor 81 and the limit switch |34 has just ridden onto the other end of cam |35, energizing light |35. In Fig. 8a the lower gate 51 is shown extending into molding compartment" 5|- and closing molding port 21, while the upper gate 58 is drawn clear of the compartment 5|. This position is reached after the molding operachamber i9, the solvent or iluxing agent for the mixture is admitted to the bore/42 of shaft 3S through swivel valve 50 and, as the shaft rotates. is discharged under pressure into mixing chamber I3 through nozzles 43. Pigment or other coloring matter may be introduced with the solid materials through hopper 3| but in some, cases the coloring matter may be more conveniently introduced dissolved 6r suspended in the solvent.

When suillcient material has been compounded and mixed in chamber I8, and accumulated at the forward end thereof, the molding cycle is heguxn The molding unit 69 is, lowered into molding compartment 5| by depressing trigger |20 thereby allowing air to escape from grip 91 and permitting piston 8| to move downwardly in air cylinder 90. As the molding unit 69 comes into position in molding compartment 5|, hooks (05 engage locking lrnobs |05. Simultaneously. contact units |30 and |3| come together and complete a 'circuit which energizes motor 61. Motor 51 retracts upper gate 58, which as previously noted was at rest in the `position shown in Fig. 8b, and, owing to the operation of catch 5|, lower gate 51 is simultaneously retracted and gradually pulled out of molding compartment 5|, thereby opening molding port 21. As molding port 21 opens, the compounded plastic molding material in mixing chamber I3 is ,forced by the combined action of impeller blades 38 and helical screw 31 into molding compartment 5|. During this interval, upper gate 58 'is drawn to fully retracted position shown in Fig. 8c and its direction of movement reversed. As upper-gate 58 reaches the position shown in Fig. 8a, the catch 5| engages lower gate 51 at the forward end of slot f50 and lower gate 51 is pulled forward with upper gate 58. As the gates 51 and 58 move from the position shown in Fig. 8a to the position shown in Fig. 8, molding port 21 is gradually closed. and when the gates have completely closed tion has been completed and motor 51 has been 75 mvlding port 21 (Fig. 8) the contact arm o;

7 limit switch |33 overrides cam |35 and deenergizes motor 51 thereby stopping the movement of the gates. Simultaneously limit switch |34 is actuated by cam |35 and light |36 is energized,

indicating to the operator that molding port 21 has been closed. The movement of the contact arm of limit switch |33 which de-energizes motor 51 energizes hydraulic pump unit 80 which. by acting upon hydraulic ram 10, exterts a compacting pressure upon the contents of molding compartment 5|. When a predetermined pressure has been reached, pressure regulator switch |32 de-energizes hydraulic pump unit 80 and simultaneously energizes motor 61 which, by driving wheel 05, draws upper gate 58 out of the molding compartment 5|. As upper gate 58 reaches the position shown in Fig. 8b, the contact arm of limit switch |33 overrides the forward end of cam |35 and motor 61 is de-energized. At the same time the ears ||2 on upper gate 58 push the hooked ends of arms |08 against rollers ||3 thereby disengaging hooks |06 and locking knobs and releasing molding unit 69. The molding unit 69 and the molded product adhering to it are now ready to be lifted from molding compartment 5| for the purpose of placing the product on conveyor |25. This is done by releasing trigger |20, which during the molding operation hereinabove described has been held in a depressed posi' tion. Release of trigger allows the air in cylinder 90 to push piston 9| upwardly until molding unit 69 has been lifted clear of molding compartment 5| as shown in phantom in Fig. 2. The molding unit 69 is then swung 90 to the left, as shown in phantom in Fig. l, which places the product directly over conveyor belt |25. Theproduct is ejected by depressing button |22 which actuates pistons 16 of ejector unit 15 forcing frame 11 and compression plate 18 downwardly. After theproduct has been ejected, molding unit 69 is returned to engaged position in the molding compartment 5| and the moldingA cycle repeated.

In the foregoing description of the operation of the machine it has been assumed that the r plastic materials being handled have suflicent coherence to resist flow after molding. When the machine is used for molding materials such as concrete, however, the molded product must be provided with a pallet 42 to support the material during the curing stage and suitable devices must be attached to the machine to accommodate and handle the pallets. For supporting the pallets, when the molded product is being removed from the molding compartment 5|, there is provided a supporting device comprising a clamp |45 which is secured to hydraulic ram 10 and arms |45 secured to clamp |45 by springs |41. Arms |43` have a width equal to that of the'interior of the molding compartment 5| and are secured to plate 1| by hinges |48. To guide the arms |45' 'into the molding compartment when the molding unit is returned after ejecting the molded product, there are provided rollers |50 and |5| secured to walls 52 and 53 respectively. The operation of these rollers is shown in Fig. 3a. When the pallet-supporting device is used, the plate 1|, the frame 11 and the compression plate 18 are replaced with equivalent units of appropriate size to accommodate the arms |46 within the molding compartment 5I. Y

Pallets |42, which have two opposite edges rabbetted to provide for reception of the bent ends |49 of arms |46, are stacked between wall .Il and the end of a/housinx |52, which encloses the gate'drivin'g mechanlm. as shown in Fig. 2a. When pallets are used the forward portion 58a of upper gate I8 is removed and the pallets rest upon lower gate 51. When upper gate 58 is driven forward toward molding compartment 5 I a pallet |42 is pushed ahead of it into the compartment and remains with the molded product until the product has been removed and cured.

'I'he machine of the invention may also be used to mold relatively thin solid articles, such as tiles. In this case the mold core 12 is not required nor is the compression plate 18; the tile is formed within the area circumscribed by frame 11. If desired, a series of tiles may be molded simultaneously by replacing frame 11 with a frame having suitable partitions extending l between the sides therof.

The relative position of the plate 1| in molding compartment 5| may be varied to accommodate the particular product to be molded by inserting suitable adapterV sections between ram 10 and plate 1|. When products such as tiles are to be molded, for example, the plate 1| may be lowered with respect to the end of ram 10 by means of an adapter section |54. Fig. 5 shows the use of adapter section |54 and also shows the action of the frame 11 in ejecting a tile product.

If it is desired to form molded products of various dimensions, the cross-,sectional area of the molding compartment 5| may be conveniently varied by means of liners |55 for the walls o f the compartment, as shown in Fig. '1.

In molding hollow articles such as building block |58 (Fig. 4), it will be apparent that when the molding unit 89 is secured'in molding unit 5| the mold core 12 extends almost to the surface of the upper gate 58 (or the pallet |42, if used) leaving only enough clearance to accommodate the slight downward movement of the hydraulic ram 10 .when the product is compressed. Products having a bottom portion, such as boxes, may be molded, however, by using a shorter core having a nat lower surface which will permit a layer of the plastic composition to be formed between the lower surface of the core and the surface of the supporting plate.

If it is desired to maintain the contents 0f Amixing chamber at an elevated temperature, as for example, when thermoplastic materials are being handled, the outer face ot wall 20 may be provided with strip heaters |59.

It 'will be obvious that various 'other changes and modifications may be made in the machine hereinabove described and illustrated in the accompanying drawings without departing from the scope of the invention as d ened in the appended claims, and it is therefore intended that the foregoing description shall be interpreted in an illustrative and not in a limiting sense. I claim: l

' l. A mixing and molding machine comprising 'a chamber for receiving the components of a molding mixture, mixing and conveying means in said chamber, a molding compartment having an nents of a molding mixture, means for continuously mixing and conveying the mixture in said chamber, a molding compartment having an open intake end communicating with the top of said chamber and an open discharge end opposite said intake end, means for intermittently closing said open intaker end and thereby isolating the said molding compartment from the said chamber, and means intermittently insertable in said discharge end for closing said end during the molding operation but removable therefrom for discharge of the molded product.

3. A mixing and molding machine comprising a horizontal chamber adapted to receive the components of a molding mixture at one end thereof, means for continuously mixing and conveying the mixture to the opposite end of said chamber, a molding compartment having an open intake end communicating with the top of said chamber adjacent the said opposite end thereof and an open discharge end opposite 'said intake end, means for intermittently closing said open intake end and isolating the said molding compartment from the said chamber, and means intermittently insertable in said discharge endfor closing said end during the molding operation but removable therefrom for discharge of the molded product.

4. A mixing and molding machine comprising a horizontal chamber adapted to receive the components of a molding mixture at one end thereof, means for continuously mixing and conveying the mixture to the opposite end of said chamber, a molding compartment having an open intake end communicating with the top of the said chamber adjacent the said opposite end thereof and an open discharge end opposite said intake end, means for intermittently closing the said open intake end and thereby isolating the said molding compartment from the said chamber and means, including a pressure exerting molding mechanism, adapted to be intermittently engaged in said molding compartment for closing the said open discharge end during the molding operation and vertically removable therefrom for discharge of the molded product.

5. A mixing and molding machine comprising a horizontal chamber for receiving the components of a molding mixture, means for continuously mixing and conveying the mixture in said chamber, a molding compartment having an open end communicating with the top of the said chamber, a reciprocally movable upper plate, a subjacent plate adapted to move in response to the movement of the said upper plate, said upper and said lower plate being movable into the lower portion of said molding compartment and across the open end thereof thereby forming a bottom for said molding compartment and isolating the said molding compartment from the said chamber, and said upper plate being withdrawable from said molding compartment independently of said lower plate.

6. A mixing and molding machine comprising a horizontal chamber for receiving the components of a molding mixture, means for continuously mixing and conveying the mixture in said chamber, a molding compartment having an open end communicating with the top of the said chamber, a pressure exerting molding mechanism adapted to be intermittently engaged in said molding compartment, a reciprocally movable upper plate, a subjacent plate adapted to move in response to the movements of the said upper plate, said upper and said lower plate being movable into the lower portion of said molding coml0 partment and across the open-end thereof thereby forming a bottom for said molding compartment and isolating the said molding compart- -ment from the said chamber, and said upper plate being withdrawable from said molding compartment independently of said lower plate.

7. A mixing and molding machine comprising a horizontal chamber adapted to receive the components of a molding mixture at one end thereof, a helical screw having adjustable-,pitch mixing .blades mounted thereon for continuously mixing and conveying the mixture to the opposite end of said chamber, a molding compartment having an open intake end communicating with the top of said chamber adjacent the said opposite end thereof and an open discharge end opposite said intake end, means for intermittently closing said open end and isolating the said molding compartment from the said chamber, and means intermittently insertable in said discharge end for closing said end during the molding operation but removable therefrom for discharge of the molded product.

8. A mixing and molding machine comprising a horizontal chamber adapted to receive the components of a molding mixture at one end thereof a helical screw having adjustable-pitch mixing blades mounted thereon for continuously mixing and conveying the mixture to the opposite end of said chamber, a molding compartment having an open end communicating with the top of said chamber adjacent the said opposite end thereof and means for intermittently closing said open end and isolating the said molding compartment from the said chamber, said helical screw having a shaft at least part of which is hollow and said shaft having a plurality of nozzles mounted thereon and communicating with the interior of the hollow part of the shaft.

9. A mixing and molding machine comprising a horizontal chamber for receiving the components of a, molding mixture, means for continuously mixing and conveying the mixture in said chamber, a molding compartment having an open end communicating with the top of the said chamber, a reciprocally movable upper plate, a subjacent plate adapted to move in response to the movements of the said upper plate, said upper and said lower plate being movable into the lower portion of said molding compartment and across the open end thereof thereby forming a bottom for said molding compartment and isolating the said molding compartment from the said chamber, and plate-moving means for imparting reciprocal movement .to said upper plate, said upper plate being withdrawable from said compartment independently of said lower plate.

10. A mixing and molding machine comprising a horizontal chamber for receiving the components of a molding mixture, means for continuously mixing and conveying the mixture in said chamber, -a molding compartment having an open end communicating with the top of the said chamber, a reciprocally movable upper plate, a subjacent plate adapted to move in response to the movements of the said upper plate, said upper and said lower plate being movable into the lower portion of said molding compartment and across the open end thereof thereby forming a bottom for said molding compartment and isolating the said molding compartment from the said chamber, plate-moving means for imparting reciprocal movement to said upper plate, said upper plate being withdrawable from said compartment indepegdently of said lower plate, and electrical means for controlling the operation oi' said platemoving means.

11. A mixing and molding machine comprising a horizontal chamber for receiving the components of a molding mixture, means for continuously mixing and conveying the mixture in said chamber, a molding compartment having an open end communicating with the top of the said chamber, a pressure exerting molding mechanism adapted to be intermittently engaged in said molding compartment, a reciprocally movable upper plate, a subjacent plate adapted to move in response to the movements of the said upper plate, said lower plate being movable into the lower portion of said molding compartment and across the open end thereof thereby forming a bottom for said molding compartment and isolating the said molding compartment from the said chambensaid upper plate being adapted to propel into saidmolding chamber a pallet supported upon said lower plate, and pallet supporting means mounted upon said pressure-exerting molding mechanism.

12. A mixing and molding machine comprising a horizontal chamber for receiving the components of a molding mixture, means for continuously mixing and conveying the mixture in said chamber, a molding compartment having an open end communicating with the top of the said chamber, a pressure exerting molding mechanism l2 adapted to be intermittently engaged in said molding compartment, a reciprocally movable upper plate. a subjacent plate adapted to move in response to the movements of the said upper plate, said upper and said lower plate being movable into the lower portion of said molding compartment and across the open end thereof thereby forming a bottom for said molding compartment and isolating the said molding compartment from the said chamber, said upper plate being withdrawable from said compartment independently of said lower plate, and a pneumatically operated lifting means for said pressureexerting molding mechanism.

' HAROLD CORBET'I.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PA'I'ENTS Number Name Date 949,505 Snelling Feb. 15, 1910 1,534,154 Bornhauser et al. Apr. 21, 1925 1,733,706 Widin Oct. 29, 1929 1,858,956 Hepperle May 17, 1932 1,977,515 Klippel Oct. 16, 1934 2,402,805 Cousino June 25, 1946 2,434,690 Ferla Jan. 20, 1948 

